Comorbidities of Obesity in a Rural African Population Residing in Limpopo Province, South Africa: A Comparison between General and Central Obesity

Obesity is a growing epidemic that threatens to deplete healthcare resources by increasing the prevalence of diabetes, heart disease, high blood pressure, cancer, and chronic kidney disease. The prevalence of general and central obesity among the rural Black population in Limpopo Province is high; however, few studies have evaluated the association between obesity and its comorbidities among the rural Black population, and, hence, this study aims to determine the relationship between obesity and associated comorbidities. This study was cross-sectional and retrospective in design, using secondary data from the Africa Wits-INDEPTH Partnership for Genomic (AWI-Gen) research phase 1 study. A sample size of 791 participants was collected conveniently. Data were analysed using the Statistical Package for Social Sciences version 27 (SPSS). A chi-square, unpaired Student’s t-test, bivariate and partial correlation, and multivariate regression analysis were used for analysis. General obesity correlated positively and significantly with LDL-C/HDL-C ratio and hypertension, while central obesity correlated positively and significantly with diabetes, hypertension, chronic kidney disease, LDL-C/HDL-C ratio, and TC/HDL-C ratio. In the present study, obese participants were more likely to be hypertensive, and have an increased LDL-C/HDL-C ratio. Centrally obese participants were more likely to be diabetic, hypertensive, have dyslipidaemia, and exhibit reduced kidney function

A new nanocomposite forward osmosis membrane custom-designed for treating shale gas wastewater

Managing the wastewater discharged from oil and shale gas fields is a big challenge, because this kind of wastewater is normally polluted by high contents of both oils and salts. Conventional pressure-driven membranes experience little success for treating this wastewater because of either severe membrane fouling or incapability of desalination. In this study, we designed a new nanocomposite forward osmosis (FO) membrane for accomplishing simultaneous oil/water separation and desalination. This nanocomposite FO membrane is composed of an oil-repelling and salt-rejecting hydrogel selective layer on top of a graphene oxide (GO) nanosheets infused polymeric support layer. The hydrogel selective layer demonstrates strong underwater oleophobicity that leads to superior anti-fouling capability under various oil/water emulsions, and the infused GO in support layer can significantly mitigate internal concentration polarization (ICP) through reducing FO membrane structural parameter by as much as 20%. Compared with commercial FO membrane, this new FO membrane demonstrates more than three times higher water flux, higher removals for oil and salts (>99.9% for oil and >99.7% for multivalent ions) and significantly lower fouling tendency when investigated with simulated shale gas wastewater. These combined merits will endorse this new FO membrane with wide applications in treating highly saline and oily wastewaters